Extremely Low‐Frequency Electromagnetic Fields Entrain Locust Wingbeats

Shepherd, Sebastian; Jackson, Chris; Sharkh, Suleiman M.; Aonuma, Hitoshi; Oliveira, Eugênio E.; Newland, Philip L.

doi:10.1002/bem.22336

Cited by 10 publications

(9 citation statements)

References 53 publications

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“…These results were consistent with the results of Shepherd et al [2021], where exposure of bees and pesticides to MF revealed no evidence of synergy between clothianidin and extremely low‐frequency electromagnetic fields (ELF‐EMFs) as environmental stressors, but there is a potential for EMFs to affect the same susceptible fraction of the bee population that has been affected by clothianidin. Moreover, Shepherd pointed out that the results lay the foundation to further explore the interactions of ELF‐EMFs with other environmental stressors and consider the key factors that may make bees susceptible to ELF‐EMFs.…”

Section: Discussionsupporting

confidence: 92%

The Impact of Magnetic Field on Insecticide Toxicity Measured by Biological and Biochemical Parameters of Earias insulana (Boisd)

El-Bassouiny¹,

El-Medany²,

Kandil³

2022

Bioelectromagnetics

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This study illustrates the effect of magnetic field (MF) on the toxicity of two insecticides, emamectin benzoate (Emazoate 2.15% EC) and spinosad (SpinTor 24% SC), and determines their adverse effects on the bollworm (Earias insulana) through various biological and biochemical assays. The investigation indicated that exposure to the insecticides in a MF of 180 mT resulted in stronger toxicity, with LC 50 values of 0.162, 1.211, and 1.770 ppm, respectively. In addition, the results showed that magnetized insecticides significantly increased in the duration of the total immature stages (larvae and/or pupae) 32.1 and 36.6 days, compared with 27.9 and 30.5 days, respectively, in the nonmagnetized insecticides, while untreated check was 21 days. Also, the magnetized insecticides reduced the percentage of adult emergence, and increased deformations in the larval and pupal stages. Furthermore, sex ratio was greatly affected by exposure to both insecticides in conjunction with the MF. Exposure of the larvae of E insulana to magnetized insecticides can bring about malfunction in some biochemical process and significantly decreased the invertase activity, and decreased the total protein and carbohydrates. In contrast, it can increase amylase compared with nonmagnetized insecticides and untreated controls. Results concluded that the two insecticides' MF affected growth, survival time, and biological and biochemical parameters of E. insulana. Bioelectromagnetics. 43:368-380, 2022.

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Section: Discussionsupporting

confidence: 92%

The Impact of Magnetic Field on Insecticide Toxicity Measured by Biological and Biochemical Parameters of Earias insulana (Boisd)

El-Bassouiny¹,

El-Medany²,

Kandil³

2022

Bioelectromagnetics

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“…Several studies have focused on the walking and questing behavior of ticks in dry versus humid conditions, as air humidity is the key factor for tick activity and survival [23,24]. Few authors have focused on the effect of extremely low EMF frequencies on insects' walking behavior [25][26][27]. Wyszkovska et al showed that exposure to relatively high levels of extremely low frequencies of EMFs, generated by overhead power transmission lines, affects the behavior, neuronal and muscular responses and levels of heat shock protein in the desert locust.…”

Section: Discussionmentioning

confidence: 99%

Locomotor Activity of Ixodes ricinus Females in 900 MHz Electromagnetic Field

Vargová

Majláth

Kurimský

et al. 2022

Life

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Mobile telecommunications technologies have become an indispensable part of people’s lives of all ages around the world. They affect personal life and social interactions and are a work tool in the work routine. Network availability requirements and the quality of the Internet connection are constantly increasing, to which telecommunications providers are responding. Humans and wildlife live in the permanent presence of electromagnetic radiation with just a minor knowledge of the impact this radiation has. The aim of our study was to investigate the effect of a 900 MHz electromagnetic field (EMF) on the locomotor behavior of female Ixodes ricinus ticks under laboratory conditions. Experiments were performed in the radiation-shielded tube (RST) test and radiation-shielded circular open-field arena placed in an anechoic chamber. Altogether, 480 female I. ricinus ticks were tested. In the RST arena, no differences in preference for irradiated and shielded parts of experimental modules were observed; in the open-field arena, the time spent and the trajectory passed was significantly longer in the part exposed to the EMF.

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“…Shepherd et al [ 16 ], by tethered flight experiments on honeybees, showed that during exposure to 0.1 mT, 1.0 mT, and 7.0 mT MF, wingbeat frequency was increased, with a greater effect at higher exposure levels. The influence of MF on wingbeat frequency has also been demonstrated in locust [ 31 ]. A static 50 mT MF modulated the motor behavior of Tenebrio molitor and T. obscurus , but interestingly, even in such closely related species, the effects were remoted [ 32 ].…”

Section: Discussionmentioning

confidence: 99%

Exposure to Magnetic Fields Changes the Behavioral Pattern in Honeybees (Apis mellifera L.) under Laboratory Conditions

Migdał

Berbeć

Bieńkowski

et al. 2022

Animals

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Earth’s magnetic field (MF) plays an important role for many species, including the honeybee, in navigation. Nowadays, much larger alternating fields are emitted by miscellaneous electric infrastructure components, such as transformers and power lines, and the environment is therefore polluted by an anthropogenic electromagnetic field, though little is known regarding its impact on living organisms. The behavior of animals is the first and easiest way to establish the impact of stress. It shows if the animal can detect the exposure and react to it. To investigate this, one-day-old bees were exposed to a 50 Hz magnetic field of induction at 1 mT and 1.7 mT for 10 min, 1 h, and 3 h under laboratory conditions. All groups exposed to the magnetic field showed differences in behavioral patterns. What is more, they presented a behavior absent in the control: loss of balance. There were differences, both in the ratio of behaviors and in the number of bouts—exposed bees more often changed behavior. Occurrence of differences is an indication of the reaction of the honeybee organism to the magnetic field. Loss of balance is a disturbing symptom, and behavior changes indicate a disturbance of the honeybee by the electromagnetic field.

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Extremely Low‐Frequency Electromagnetic Fields Entrain Locust Wingbeats

Cited by 10 publications

References 53 publications

The Impact of Magnetic Field on Insecticide Toxicity Measured by Biological and Biochemical Parameters of Earias insulana (Boisd)

The Impact of Magnetic Field on Insecticide Toxicity Measured by Biological and Biochemical Parameters of Earias insulana (Boisd)

Locomotor Activity of Ixodes ricinus Females in 900 MHz Electromagnetic Field

Exposure to Magnetic Fields Changes the Behavioral Pattern in Honeybees (Apis mellifera L.) under Laboratory Conditions

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